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AIX compatibility changes; clean up map initialization functions
[unix-history] / usr / src / usr.sbin / sendmail / src / conf.c
/*
* Copyright (c) 1983 Eric P. Allman
* Copyright (c) 1988 Regents of the University of California.
* All rights reserved.
*
* %sccs.include.redist.c%
*/
#ifndef lint
static char sccsid[] = "@(#)conf.c 6.60 (Berkeley) %G%";
#endif /* not lint */
# include <sys/ioctl.h>
# include <sys/param.h>
# include <signal.h>
# include <pwd.h>
# include "sendmail.h"
# include "pathnames.h"
/*
** CONF.C -- Sendmail Configuration Tables.
**
** Defines the configuration of this installation.
**
** Configuration Variables:
** HdrInfo -- a table describing well-known header fields.
** Each entry has the field name and some flags,
** which are described in sendmail.h.
**
** Notes:
** I have tried to put almost all the reasonable
** configuration information into the configuration
** file read at runtime. My intent is that anything
** here is a function of the version of UNIX you
** are running, or is really static -- for example
** the headers are a superset of widely used
** protocols. If you find yourself playing with
** this file too much, you may be making a mistake!
*/
\f/*
** Header info table
** Final (null) entry contains the flags used for any other field.
**
** Not all of these are actually handled specially by sendmail
** at this time. They are included as placeholders, to let
** you know that "someday" I intend to have sendmail do
** something with them.
*/
struct hdrinfo HdrInfo[] =
{
/* originator fields, most to least significant */
"resent-sender", H_FROM|H_RESENT,
"resent-from", H_FROM|H_RESENT,
"resent-reply-to", H_FROM|H_RESENT,
"sender", H_FROM,
"from", H_FROM,
"reply-to", H_FROM,
"full-name", H_ACHECK,
"return-receipt-to", H_FROM /* |H_RECEIPTTO */,
"errors-to", H_FROM|H_ERRORSTO,
/* destination fields */
"to", H_RCPT,
"resent-to", H_RCPT|H_RESENT,
"cc", H_RCPT,
"resent-cc", H_RCPT|H_RESENT,
"bcc", H_RCPT|H_ACHECK,
"resent-bcc", H_RCPT|H_ACHECK|H_RESENT,
"apparently-to", H_RCPT,
/* message identification and control */
"message-id", 0,
"resent-message-id", H_RESENT,
"message", H_EOH,
"text", H_EOH,
/* date fields */
"date", 0,
"resent-date", H_RESENT,
/* trace fields */
"received", H_TRACE|H_FORCE,
"x400-received", H_TRACE|H_FORCE,
"via", H_TRACE|H_FORCE,
"mail-from", H_TRACE|H_FORCE,
/* miscellaneous fields */
"comments", H_FORCE,
"return-path", H_ACHECK,
NULL, 0,
};
/*
** Location of system files/databases/etc.
*/
char *ConfFile = _PATH_SENDMAILCF; /* runtime configuration */
char *FreezeFile = _PATH_SENDMAILFC; /* frozen version of above */
char *PidFile = _PATH_SENDMAILPID; /* stores daemon proc id */
/*
** Privacy values
*/
struct prival PrivacyValues[] =
{
"public", PRIV_PUBLIC,
"needmailhelo", PRIV_NEEDMAILHELO,
"needexpnhelo", PRIV_NEEDEXPNHELO,
"needvrfyhelo", PRIV_NEEDVRFYHELO,
"noexpn", PRIV_NOEXPN,
"novrfy", PRIV_NOVRFY,
"restrictmailq", PRIV_RESTRMAILQ,
"authwarnings", PRIV_AUTHWARNINGS,
"goaway", PRIV_GOAWAY,
NULL, 0,
};
/*
** Miscellaneous stuff.
*/
int DtableSize = 50; /* max open files; reset in 4.2bsd */
\f/*
** SETDEFAULTS -- set default values
**
** Because of the way freezing is done, these must be initialized
** using direct code.
**
** Parameters:
** e -- the default envelope.
**
** Returns:
** none.
**
** Side Effects:
** Initializes a bunch of global variables to their
** default values.
*/
#define DAYS * 24 * 60 * 60
setdefaults(e)
register ENVELOPE *e;
{
SpaceSub = ' '; /* option B */
QueueLA = 8; /* option x */
RefuseLA = 12; /* option X */
WkRecipFact = 30000L; /* option y */
WkClassFact = 1800L; /* option z */
WkTimeFact = 90000L; /* option Z */
QueueFactor = WkRecipFact * 20; /* option q */
FileMode = (getuid() != geteuid()) ? 0644 : 0600;
/* option F */
DefUid = 1; /* option u */
DefGid = 1; /* option g */
CheckpointInterval = 10; /* option C */
MaxHopCount = 25; /* option h */
e->e_sendmode = SM_FORK; /* option d */
e->e_errormode = EM_PRINT; /* option e */
SevenBit = FALSE; /* option 7 */
MaxMciCache = 1; /* option k */
MciCacheTimeout = 300; /* option K */
LogLevel = 9; /* option L */
settimeouts(NULL); /* option r */
TimeOuts.to_q_return = 5 DAYS; /* option T */
TimeOuts.to_q_warning = 0; /* option T */
PrivacyFlags = 0; /* option p */
setdefuser();
setupmaps();
setupmailers();
}
/*
** SETDEFUSER -- set/reset DefUser using DefUid (for initgroups())
*/
setdefuser()
{
struct passwd *defpwent;
static char defuserbuf[40];
DefUser = defuserbuf;
if ((defpwent = getpwuid(DefUid)) != NULL)
strcpy(defuserbuf, defpwent->pw_name);
else
strcpy(defuserbuf, "nobody");
}
\f/*
** HOST_MAP_INIT -- initialize host class structures
*/
bool
host_map_init(map, args)
MAP *map;
char *args;
{
register char *p = args;
for (;;)
{
while (isascii(*p) && isspace(*p))
p++;
if (*p != '-')
break;
switch (*++p)
{
case 'a':
map->map_app = ++p;
break;
}
while (*p != '\0' && !(isascii(*p) && isspace(*p)))
p++;
if (*p != '\0')
*p++ = '\0';
}
if (map->map_app != NULL)
map->map_app = newstr(map->map_app);
return TRUE;
}
\f/*
** SETUPMAILERS -- initialize default mailers
*/
setupmailers()
{
char buf[100];
strcpy(buf, "prog, P=/bin/sh, F=lsD, A=sh -c $u");
makemailer(buf);
strcpy(buf, "*file*, P=/dev/null, F=lsDFMPEu, A=FILE");
makemailer(buf);
strcpy(buf, "*include*, P=/dev/null, F=su, A=INCLUDE");
makemailer(buf);
}
\f/*
** SETUPMAPS -- set up map classes
*/
#define MAPDEF(name, ext, flags, parse, open, close, lookup, store) \
{ \
extern bool parse __P((MAP *, char *)); \
extern bool open __P((MAP *, int)); \
extern void close __P((MAP *)); \
extern char *lookup __P((MAP *, char *, char **, int *)); \
extern void store __P((MAP *, char *, char *)); \
s = stab(name, ST_MAPCLASS, ST_ENTER); \
s->s_mapclass.map_cname = name; \
s->s_mapclass.map_ext = ext; \
s->s_mapclass.map_cflags = flags; \
s->s_mapclass.map_parse = parse; \
s->s_mapclass.map_open = open; \
s->s_mapclass.map_close = close; \
s->s_mapclass.map_lookup = lookup; \
s->s_mapclass.map_store = store; \
}
setupmaps()
{
register STAB *s;
#ifdef NEWDB
MAPDEF("hash", ".db", MCF_ALIASOK|MCF_REBUILDABLE,
map_parseargs, hash_map_open, db_map_close,
db_map_lookup, db_map_store);
MAPDEF("btree", ".db", MCF_ALIASOK|MCF_REBUILDABLE,
map_parseargs, bt_map_open, db_map_close,
db_map_lookup, db_map_store);
#endif
#ifdef NDBM
MAPDEF("dbm", ".dir", MCF_ALIASOK|MCF_REBUILDABLE,
map_parseargs, ndbm_map_open, ndbm_map_close,
ndbm_map_lookup, ndbm_map_store);
#endif
#ifdef NIS
MAPDEF("nis", NULL, MCF_ALIASOK,
map_parseargs, nis_map_open, nis_map_close,
nis_map_lookup, nis_map_store);
#endif
MAPDEF("stab", NULL, MCF_ALIASOK|MCF_ALIASONLY,
map_parseargs, stab_map_open, stab_map_close,
stab_map_lookup, stab_map_store);
MAPDEF("implicit", NULL, MCF_ALIASOK|MCF_ALIASONLY|MCF_REBUILDABLE,
map_parseargs, impl_map_open, impl_map_close,
impl_map_lookup, impl_map_store);
/* host DNS lookup */
MAPDEF("host", NULL, 0,
host_map_init, null_map_open, null_map_close,
host_map_lookup, null_map_store);
/* dequote map */
MAPDEF("dequote", NULL, 0,
dequote_init, null_map_open, null_map_close,
dequote_map, null_map_store);
#if 0
# ifdef USERDB
/* user database */
MAPDEF("udb", ".db", 0,
udb_map_parse, null_map_open, null_map_close,
udb_map_lookup, null_map_store);
# endif
#endif
}
#undef MAPDEF
\f/*
** GETRUID -- get real user id (V7)
*/
getruid()
{
if (OpMode == MD_DAEMON)
return (RealUid);
else
return (getuid());
}
/*
** GETRGID -- get real group id (V7).
*/
getrgid()
{
if (OpMode == MD_DAEMON)
return (RealGid);
else
return (getgid());
}
\f/*
** USERNAME -- return the user id of the logged in user.
**
** Parameters:
** none.
**
** Returns:
** The login name of the logged in user.
**
** Side Effects:
** none.
**
** Notes:
** The return value is statically allocated.
*/
char *
username()
{
static char *myname = NULL;
extern char *getlogin();
register struct passwd *pw;
/* cache the result */
if (myname == NULL)
{
myname = getlogin();
if (myname == NULL || myname[0] == '\0')
{
pw = getpwuid(getruid());
if (pw != NULL)
myname = newstr(pw->pw_name);
}
else
{
uid_t uid = getuid();
myname = newstr(myname);
if ((pw = getpwnam(myname)) == NULL ||
(uid != 0 && uid != pw->pw_uid))
{
pw = getpwuid(uid);
if (pw != NULL)
myname = newstr(pw->pw_name);
}
}
if (myname == NULL || myname[0] == '\0')
{
syserr("554 Who are you?");
myname = "postmaster";
}
}
return (myname);
}
\f/*
** TTYPATH -- Get the path of the user's tty
**
** Returns the pathname of the user's tty. Returns NULL if
** the user is not logged in or if s/he has write permission
** denied.
**
** Parameters:
** none
**
** Returns:
** pathname of the user's tty.
** NULL if not logged in or write permission denied.
**
** Side Effects:
** none.
**
** WARNING:
** Return value is in a local buffer.
**
** Called By:
** savemail
*/
char *
ttypath()
{
struct stat stbuf;
register char *pathn;
extern char *ttyname();
extern char *getlogin();
/* compute the pathname of the controlling tty */
if ((pathn = ttyname(2)) == NULL && (pathn = ttyname(1)) == NULL &&
(pathn = ttyname(0)) == NULL)
{
errno = 0;
return (NULL);
}
/* see if we have write permission */
if (stat(pathn, &stbuf) < 0 || !bitset(02, stbuf.st_mode))
{
errno = 0;
return (NULL);
}
/* see if the user is logged in */
if (getlogin() == NULL)
return (NULL);
/* looks good */
return (pathn);
}
\f/*
** CHECKCOMPAT -- check for From and To person compatible.
**
** This routine can be supplied on a per-installation basis
** to determine whether a person is allowed to send a message.
** This allows restriction of certain types of internet
** forwarding or registration of users.
**
** If the hosts are found to be incompatible, an error
** message should be given using "usrerr" and 0 should
** be returned.
**
** 'NoReturn' can be set to suppress the return-to-sender
** function; this should be done on huge messages.
**
** Parameters:
** to -- the person being sent to.
**
** Returns:
** an exit status
**
** Side Effects:
** none (unless you include the usrerr stuff)
*/
checkcompat(to, e)
register ADDRESS *to;
register ENVELOPE *e;
{
# ifdef lint
if (to == NULL)
to++;
# endif lint
# ifdef EXAMPLE_CODE
/* this code is intended as an example only */
register STAB *s;
s = stab("arpa", ST_MAILER, ST_FIND);
if (s != NULL && e->e_from.q_mailer != LocalMailer &&
to->q_mailer == s->s_mailer)
{
usrerr("553 No ARPA mail through this machine: see your system administration");
/* NoReturn = TRUE; to supress return copy */
return (EX_UNAVAILABLE);
}
# endif /* EXAMPLE_CODE */
return (EX_OK);
}
\f/*
** HOLDSIGS -- arrange to hold all signals
**
** Parameters:
** none.
**
** Returns:
** none.
**
** Side Effects:
** Arranges that signals are held.
*/
holdsigs()
{
}
\f/*
** RLSESIGS -- arrange to release all signals
**
** This undoes the effect of holdsigs.
**
** Parameters:
** none.
**
** Returns:
** none.
**
** Side Effects:
** Arranges that signals are released.
*/
rlsesigs()
{
}
\f/*
** GETLA -- get the current load average
**
** This code stolen from la.c.
**
** Parameters:
** none.
**
** Returns:
** The current load average as an integer.
**
** Side Effects:
** none.
*/
/* try to guess what style of load average we have */
#define LA_ZERO 1 /* always return load average as zero */
#define LA_INT 2 /* read kmem for avenrun; interpret as int */
#define LA_FLOAT 3 /* read kmem for avenrun; interpret as float */
#define LA_SUBR 4 /* call getloadavg */
#ifndef LA_TYPE
# if defined(sun) && !defined(BSD)
# define LA_TYPE LA_INT
# endif
# if defined(mips) || defined(__alpha)
/* Ultrix or OSF/1 or RISC/os */
# define LA_TYPE LA_INT
# define LA_AVENRUN "avenrun"
# endif
# if defined(__hpux)
# define LA_TYPE LA_FLOAT
# define LA_AVENRUN "avenrun"
# endif
/* now do the guesses based on general OS type */
# ifndef LA_TYPE
# if defined(SYSTEM5)
# define LA_TYPE LA_INT
# define LA_AVENRUN "avenrun"
# else
# if defined(BSD)
# define LA_TYPE LA_SUBR
# else
# define LA_TYPE LA_ZERO
# endif
# endif
# endif
#endif
#if (LA_TYPE == LA_INT) || (LA_TYPE == LA_FLOAT)
#include <nlist.h>
#ifndef LA_AVENRUN
#define LA_AVENRUN "_avenrun"
#endif
/* _PATH_UNIX should be defined in <paths.h> */
#ifndef _PATH_UNIX
# if defined(__hpux)
# define _PATH_UNIX "/hp-ux"
# endif
# if defined(mips) && !defined(ultrix)
/* powerful RISC/os */
# define _PATH_UNIX "/unix"
# endif
# if defined(SYSTEM5)
# ifndef _PATH_UNIX
# define _PATH_UNIX "/unix"
# endif
# endif
# ifndef _PATH_UNIX
# define _PATH_UNIX "/vmunix"
# endif
#endif
struct nlist Nl[] =
{
{ LA_AVENRUN },
#define X_AVENRUN 0
{ 0 },
};
#if defined(unixpc)
# define FSHIFT 5
#endif
#if defined(__alpha)
# define FSHIFT 10
#endif
#if (LA_TYPE == LA_INT) && !defined(FSHIFT)
# define FSHIFT 8
#endif
#if (LA_TYPE == LA_INT) && !defined(FSCALE)
# define FSCALE (1 << FSHIFT)
#endif
getla()
{
static int kmem = -1;
#if LA_TYPE == LA_INT
long avenrun[3];
#else
double avenrun[3];
#endif
extern off_t lseek();
extern int errno;
if (kmem < 0)
{
kmem = open("/dev/kmem", 0, 0);
if (kmem < 0)
{
if (tTd(3, 1))
printf("getla: open(/dev/kmem): %s\n",
errstring(errno));
return (-1);
}
(void) fcntl(kmem, F_SETFD, 1);
if (nlist(_PATH_UNIX, Nl) < 0)
{
if (tTd(3, 1))
printf("getla: nlist(%s): %s\n", _PATH_UNIX,
errstring(errno));
return (-1);
}
if (Nl[X_AVENRUN].n_value == 0)
{
if (tTd(3, 1))
printf("getla: nlist(%s, %s) ==> 0\n",
_PATH_UNIX, LA_AVENRUN);
return (-1);
}
}
if (tTd(3, 20))
printf("getla: symbol address = %#x\n", Nl[X_AVENRUN].n_value);
if (lseek(kmem, (off_t) Nl[X_AVENRUN].n_value, 0) == -1 ||
read(kmem, (char *) avenrun, sizeof(avenrun)) < sizeof(avenrun))
{
/* thank you Ian */
if (tTd(3, 1))
printf("getla: lseek or read: %s\n", errstring(errno));
return (-1);
}
#if LA_TYPE == LA_INT
if (tTd(3, 5))
{
printf("getla: avenrun = %d", avenrun[0]);
if (tTd(3, 15))
printf(", %d, %d", avenrun[1], avenrun[2]);
printf("\n");
}
if (tTd(3, 1))
printf("getla: %d\n", (int) (avenrun[0] + FSCALE/2) >> FSHIFT);
return ((int) (avenrun[0] + FSCALE/2) >> FSHIFT);
#else
if (tTd(3, 5))
{
printf("getla: avenrun = %g", avenrun[0]);
if (tTd(3, 15))
printf(", %g, %g", avenrun[1], avenrun[2]);
printf("\n");
}
if (tTd(3, 1))
printf("getla: %d\n", (int) (avenrun[0] +0.5));
return ((int) (avenrun[0] + 0.5));
#endif
}
#else
#if LA_TYPE == LA_SUBR
getla()
{
double avenrun[3];
if (getloadavg(avenrun, sizeof(avenrun) / sizeof(avenrun[0])) < 0)
{
if (tTd(3, 1))
perror("getla: getloadavg failed:");
return (-1);
}
if (tTd(3, 1))
printf("getla: %d\n", (int) (avenrun[0] +0.5));
return ((int) (avenrun[0] + 0.5));
}
#else
getla()
{
if (tTd(3, 1))
printf("getla: ZERO\n");
return (0);
}
#endif
#endif
\f/*
** SHOULDQUEUE -- should this message be queued or sent?
**
** Compares the message cost to the load average to decide.
**
** Parameters:
** pri -- the priority of the message in question.
** ctime -- the message creation time.
**
** Returns:
** TRUE -- if this message should be queued up for the
** time being.
** FALSE -- if the load is low enough to send this message.
**
** Side Effects:
** none.
*/
bool
shouldqueue(pri, ctime)
long pri;
time_t ctime;
{
if (CurrentLA < QueueLA)
return (FALSE);
if (CurrentLA >= RefuseLA)
return (TRUE);
return (pri > (QueueFactor / (CurrentLA - QueueLA + 1)));
}
\f/*
** REFUSECONNECTIONS -- decide if connections should be refused
**
** Parameters:
** none.
**
** Returns:
** TRUE if incoming SMTP connections should be refused
** (for now).
** FALSE if we should accept new work.
**
** Side Effects:
** none.
*/
bool
refuseconnections()
{
#ifdef XLA
if (!xla_smtp_ok())
return TRUE;
#endif
/* this is probably too simplistic */
return (CurrentLA >= RefuseLA);
}
\f/*
** SETPROCTITLE -- set process title for ps
**
** Parameters:
** fmt -- a printf style format string. If NULL, the first
** parameter is a literal proctitle previously
** returned by getproctitle.
** va_alist -- possible parameters to fmt.
**
** Returns:
** none.
**
** Side Effects:
** Clobbers argv of our main procedure so ps(1) will
** display the title.
*/
#ifdef SETPROCTITLE
# ifdef __hpux
# include <sys/pstat.h>
# endif
# ifdef BSD4_4
# include <machine/vmparam.h>
# include <sys/exec.h>
# ifdef PS_STRINGS
# define SETPROC_STATIC static
# endif
# endif
# ifndef SETPROC_STATIC
# define SETPROC_STATIC
# endif
#endif
char ProcTitleBuf[MAXLINE];
/*VARARGS1*/
#ifdef __STDC__
setproctitle(char *fmt, ...)
#else
setproctitle(fmt, va_alist)
char *fmt;
va_dcl
#endif
{
# ifdef SETPROCTITLE
register char *p;
register int i;
VA_LOCAL_DECL
# ifdef __hpux
union pstun pst;
# endif
extern char **Argv;
extern char *LastArgv;
VA_START(fmt);
if (fmt == NULL)
{
/* restore old proctitle */
(void) strcpy(ProcTitleBuf, va_arg(ap, char *));
}
else
{
p = ProcTitleBuf;
/* print sendmail: heading for grep */
(void) strcpy(p, "sendmail: ");
p += strlen(p);
/* print the argument string */
(void) vsprintf(p, fmt, ap);
}
VA_END;
i = strlen(ProcTitleBuf);
if (i > LastArgv - Argv[0] - 2)
{
i = LastArgv - Argv[0] - 2;
ProcTitleBuf[i] = '\0';
}
(void) strcpy(Argv[0], ProcTitleBuf);
p = &Argv[0][i];
while (p < LastArgv)
*p++ = ' ';
# endif
# endif
# endif /* SETPROCTITLE */
}
\f/*
** REAPCHILD -- pick up the body of my child, lest it become a zombie
**
** Parameters:
** none.
**
** Returns:
** none.
**
** Side Effects:
** Picks up extant zombies.
*/
# include <sys/wait.h>
void
reapchild()
{
# ifdef WIFEXITED
auto int status;
while (waitpid(-1, &status, WNOHANG) > 0)
continue;
# else
# ifdef WNOHANG
union wait status;
while (wait3((int *)&status, WNOHANG, (struct rusage *) NULL) > 0)
continue;
# else /* WNOHANG */
auto int status;
while (wait(&status) > 0)
continue;
# endif /* WNOHANG */
# endif
# ifdef SYSTEM5
(void) signal(SIGCHLD, reapchild);
# endif
}
\f/*
** UNSETENV -- remove a variable from the environment
**
** Not needed on newer systems.
**
** Parameters:
** name -- the string name of the environment variable to be
** deleted from the current environment.
**
** Returns:
** none.
**
** Globals:
** environ -- a pointer to the current environment.
**
** Side Effects:
** Modifies environ.
*/
#ifdef UNSETENV
void
unsetenv(name)
char *name;
{
extern char **environ;
register char **pp;
int len = strlen(name);
for (pp = environ; *pp != NULL; pp++)
{
if (strncmp(name, *pp, len) == 0 &&
((*pp)[len] == '=' || (*pp)[len] == '\0'))
break;
}
for (; *pp != NULL; pp++)
*pp = pp[1];
}
#endif /* UNSETENV */
\f/*
** GETDTABLESIZE -- return number of file descriptors
**
** Only on non-BSD systems
**
** Parameters:
** none
**
** Returns:
** size of file descriptor table
**
** Side Effects:
** none
*/
#ifdef SYSTEM5
int
getdtablesize()
{
# ifdef _SC_OPEN_MAX
return sysconf(_SC_OPEN_MAX);
# else
return NOFILE;
# endif
}
#endif
\f/*
** UNAME -- get the UUCP name of this system.
*/
#ifndef HASUNAME
int
uname(name)
struct utsname *name;
{
FILE *file;
char *n;
name->nodename[0] = '\0';
/* try /etc/whoami -- one line with the node name */
if ((file = fopen("/etc/whoami", "r")) != NULL)
{
(void) fgets(name->nodename, NODE_LENGTH + 1, file);
(void) fclose(file);
n = strchr(name->nodename, '\n');
if (n != NULL)
*n = '\0';
if (name->nodename[0] != '\0')
return (0);
}
/* try /usr/include/whoami.h -- has a #define somewhere */
if ((file = fopen("/usr/include/whoami.h", "r")) != NULL)
{
char buf[MAXLINE];
while (fgets(buf, MAXLINE, file) != NULL)
if (sscanf(buf, "#define sysname \"%*[^\"]\"",
NODE_LENGTH, name->nodename) > 0)
break;
(void) fclose(file);
if (name->nodename[0] != '\0')
return (0);
}
#ifdef TRUST_POPEN
/*
** Popen is known to have security holes.
*/
/* try uuname -l to return local name */
if ((file = popen("uuname -l", "r")) != NULL)
{
(void) fgets(name, NODE_LENGTH + 1, file);
(void) pclose(file);
n = strchr(name, '\n');
if (n != NULL)
*n = '\0';
if (name->nodename[0] != '\0')
return (0);
}
#endif
return (-1);
}
#endif /* HASUNAME */
\f/*
** INITGROUPS -- initialize groups
**
** Stub implementation for System V style systems
*/
#ifndef HASINITGROUPS
# if !defined(SYSTEM5) || defined(__hpux)
# define HASINITGROUPS
# endif
#endif
#ifndef HASINITGROUPS
initgroups(name, basegid)
char *name;
int basegid;
{
return 0;
}
#endif
\f/*
** SETSID -- set session id (for non-POSIX systems)
*/
#ifndef HASSETSID
setsid()
{
# ifdef SYSTEM5
setpgrp();
# endif
}
#endif
\f/*
** ENOUGHSPACE -- check to see if there is enough free space on the queue fs
**
** Only implemented if you have statfs.
**
** Parameters:
** msize -- the size to check against. If zero, we don't yet
** know how big the message will be, so just check for
** a "reasonable" amount.
**
** Returns:
** TRUE if there is enough space.
** FALSE otherwise.
*/
#ifndef HASSTATFS
# if defined(BSD4_4) || defined(__osf__)
# define HASSTATFS
# endif
#endif
#ifdef HASSTATFS
# undef HASUSTAT
#endif
#if defined(HASUSTAT)
# include <ustat.h>
#endif
#ifdef HASSTATFS
# if defined(sgi) || defined(apollo)
# include <sys/statfs.h>
# else
# if (defined(sun) && !defined(BSD)) || defined(__hpux)
# include <sys/vfs.h>
# else
# include <sys/mount.h>
# endif
# endif
#endif
bool
enoughspace(msize)
long msize;
{
#if defined(HASSTATFS) || defined(HASUSTAT)
# if defined(HASUSTAT)
struct ustat fs;
struct stat statbuf;
# define FSBLOCKSIZE DEV_BSIZE
# define f_bavail f_tfree
# else
# if defined(ultrix)
struct fs_data fs;
# define f_bavail fd_bfreen
# define FSBLOCKSIZE fs.fd_bsize
# else
struct statfs fs;
# define FSBLOCKSIZE fs.f_bsize
# endif
# endif
long blocksneeded;
extern int errno;
if (MinBlocksFree <= 0 && msize <= 0)
{
if (tTd(4, 80))
printf("enoughspace: no threshold\n");
return TRUE;
}
# if defined(HASUSTAT)
if (stat(QueueDir, &statbuf) == 0 && ustat(statbuf.st_dev, &fs) == 0)
# else
# if defined(sgi) || defined(apollo)
if (statfs(QueueDir, &fs, sizeof fs, 0) == 0)
# else
# if defined(ultrix)
if (statfs(QueueDir, &fs) > 0)
# else
if (statfs(QueueDir, &fs) == 0)
# endif
# endif
# endif
{
if (tTd(4, 80))
printf("enoughspace: bavail=%ld, need=%ld\n",
fs.f_bavail, msize);
/* convert msize to block count */
msize = msize / FSBLOCKSIZE + 1;
if (MinBlocksFree >= 0)
msize += MinBlocksFree;
if (fs.f_bavail < msize)
{
#ifdef LOG
if (LogLevel > 0)
syslog(LOG_ALERT, "%s: low on space (have %ld, need %ld)",
QueueDir, fs.f_bavail, msize);
#endif
return FALSE;
}
}
else if (tTd(4, 80))
printf("enoughspace failure: min=%ld, need=%ld: %s\n",
MinBlocksFree, msize, errstring(errno));
#endif
return TRUE;
}
\f/*
** TRANSIENTERROR -- tell if an error code indicates a transient failure
**
** This looks at an errno value and tells if this is likely to
** go away if retried later.
**
** Parameters:
** err -- the errno code to classify.
**
** Returns:
** TRUE if this is probably transient.
** FALSE otherwise.
*/
bool
transienterror(err)
int err;
{
switch (err)
{
case EIO: /* I/O error */
case ENXIO: /* Device not configured */
case EAGAIN: /* Resource temporarily unavailable */
case ENOMEM: /* Cannot allocate memory */
case ENODEV: /* Operation not supported by device */
case ENFILE: /* Too many open files in system */
case EMFILE: /* Too many open files */
case ENOSPC: /* No space left on device */
#ifdef ETIMEDOUT
case ETIMEDOUT: /* Connection timed out */
#endif
#ifdef ESTALE
case ESTALE: /* Stale NFS file handle */
#endif
#ifdef ENETDOWN
case ENETDOWN: /* Network is down */
#endif
#ifdef ENETUNREACH
case ENETUNREACH: /* Network is unreachable */
#endif
#ifdef ENETRESET
case ENETRESET: /* Network dropped connection on reset */
#endif
#ifdef ECONNABORTED
case ECONNABORTED: /* Software caused connection abort */
#endif
#ifdef ECONNRESET
case ECONNRESET: /* Connection reset by peer */
#endif
#ifdef ENOBUFS
case ENOBUFS: /* No buffer space available */
#endif
#ifdef ESHUTDOWN
case ESHUTDOWN: /* Can't send after socket shutdown */
#endif
#ifdef ECONNREFUSED
case ECONNREFUSED: /* Connection refused */
#endif
#ifdef EHOSTDOWN
case EHOSTDOWN: /* Host is down */
#endif
#ifdef EHOSTUNREACH
case EHOSTUNREACH: /* No route to host */
#endif
#ifdef EDQUOT
case EDQUOT: /* Disc quota exceeded */
#endif
#ifdef EPROCLIM
case EPROCLIM: /* Too many processes */
#endif
#ifdef EUSERS
case EUSERS: /* Too many users */
#endif
#ifdef EDEADLK
case EDEADLK: /* Resource deadlock avoided */
#endif
#ifdef EISCONN
case EISCONN: /* Socket already connected */
#endif
#ifdef EINPROGRESS
case EINPROGRESS: /* Operation now in progress */
#endif
#ifdef EALREADY
case EALREADY: /* Operation already in progress */
#endif
#ifdef EADDRINUSE
case EADDRINUSE: /* Address already in use */
#endif
#ifdef EADDRNOTAVAIL
case EADDRNOTAVAIL: /* Can't assign requested address */
#endif
#ifdef ENOSR
case ENOSR: /* Out of streams resources */
#endif
return TRUE;
}
/* nope, must be permanent */
return FALSE;
}
\f/*
** LOCKFILE -- lock a file using flock or (shudder) lockf
**
** Parameters:
** fd -- the file descriptor of the file.
** filename -- the file name (for error messages).
** type -- type of the lock. Bits can be:
** LOCK_EX -- exclusive lock.
** LOCK_NB -- non-blocking.
**
** Returns:
** TRUE if the lock was acquired.
** FALSE otherwise.
*/
bool
lockfile(fd, filename, type)
int fd;
char *filename;
int type;
{
# ifdef LOCKF
int action;
struct flock lfd;
if (bitset(LOCK_UN, type))
lfd.l_type = F_UNLCK;
else if (bitset(LOCK_EX, type))
lfd.l_type = F_WRLCK;
else
lfd.l_type = F_RDLCK;
if (bitset(LOCK_NB, type))
action = F_SETLK;
else
action = F_SETLKW;
lfd.l_whence = lfd.l_start = lfd.l_len = 0;
if (fcntl(fd, action, &lfd) >= 0)
return TRUE;
if (!bitset(LOCK_NB, type) || (errno != EACCES && errno != EAGAIN))
syserr("cannot lockf(%s, %o)", filename, type);
# else
if (flock(fd, type) >= 0)
return TRUE;
if (!bitset(LOCK_NB, type) || errno != EWOULDBLOCK)
syserr("cannot flock(%s, %o)", filename, type);
# endif
return FALSE;
}
Continuous source code history from original PDP-7 UNIX to FreeBSD 2, the first fully unencumbered FreeBSD release.